高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
3期
466-471
,共6页
闫炳利%王训遒%蒋元力%张浩勤%陈卫航
閆炳利%王訓遒%蔣元力%張浩勤%陳衛航
염병리%왕훈주%장원력%장호근%진위항
汽液平衡%γ-丁内酯%二乙二醇%修正的Wilson方程%修正的NRTL方程
汽液平衡%γ-丁內酯%二乙二醇%脩正的Wilson方程%脩正的NRTL方程
기액평형%γ-정내지%이을이순%수정적Wilson방정%수정적NRTL방정
vapor-liquid equilibrium%γ-butyrolactone%diethylene glycol%modified Wilson equation%modified NRTL equation
采用自制的Rose釜在绝压2 kPa下测定γ-丁内酯-二乙二醇二元系的汽液平衡数据,并对所测得的数据进行热力学一致性检验,结果表明实验数据符合热力学一致性。以汽相组成的误差平方和作为目标函数,分别用Wilson和NRTL 方程关联实验数据,得到分子交互作用能量参数,并对汽液平衡计算值与实验值进行比较,发现二者最大偏差为0.0143,平均偏差0.0063。采用溶液浓度三次方程分别对Wilson和NRTL方程进行修正,修正后二者最大偏差0.0094,平均偏差0.0036,明显优于修正前的结果,可满足工程上分离设计的需要。
採用自製的Rose釜在絕壓2 kPa下測定γ-丁內酯-二乙二醇二元繫的汽液平衡數據,併對所測得的數據進行熱力學一緻性檢驗,結果錶明實驗數據符閤熱力學一緻性。以汽相組成的誤差平方和作為目標函數,分彆用Wilson和NRTL 方程關聯實驗數據,得到分子交互作用能量參數,併對汽液平衡計算值與實驗值進行比較,髮現二者最大偏差為0.0143,平均偏差0.0063。採用溶液濃度三次方程分彆對Wilson和NRTL方程進行脩正,脩正後二者最大偏差0.0094,平均偏差0.0036,明顯優于脩正前的結果,可滿足工程上分離設計的需要。
채용자제적Rose부재절압2 kPa하측정γ-정내지-이을이순이원계적기액평형수거,병대소측득적수거진행열역학일치성검험,결과표명실험수거부합열역학일치성。이기상조성적오차평방화작위목표함수,분별용Wilson화NRTL 방정관련실험수거,득도분자교호작용능량삼수,병대기액평형계산치여실험치진행비교,발현이자최대편차위0.0143,평균편차0.0063。채용용액농도삼차방정분별대Wilson화NRTL방정진행수정,수정후이자최대편차0.0094,평균편차0.0036,명현우우수정전적결과,가만족공정상분리설계적수요。
The vapor-liquid equilibrium (VLE) data of the γ-butyrolactone-diethylene glycol system were measured at 2kPa using a home-made Rose vapor-liquid equilibrium device, and the thermodynamic consistency of the experimental data were examined. The results show that the experimental data are thermodynamically consistent. The VLE data obtained were correlated with Wilson and NRTL equation respectively, and model parameters were determined. Comparison of the experimental data with fitting equation results shows that the maximum deviation and the average absolute deviation are 0.0143 and 0.0063, respectively. A cubic polynomial modification of the Wilson and NRTL equation considering the molar composition of the liquid phase was proposed. The results show that the maximum deviation and the average absolute deviation of the modified equations are 0.0094 and 0.0036, which indicates that the modified models are better for engineering separation design.
